import (
"bufio"
+ "bytes"
+ "errors"
"flag"
"fmt"
"io"
"os"
"os/exec"
"os/signal"
+ "strconv"
"strings"
"syscall"
"time"
)
-func ReadLineByLine(inp io.ReadCloser, out chan string, finish chan bool) {
- s := bufio.NewScanner(inp)
- for s.Scan() {
- out <- s.Text()
- }
- finish <- true
+/*
+#include <unistd.h>
+#include <sys/types.h>
+#include <pwd.h>
+#include <stdlib.h>
+*/
+import "C"
+
+// The above block of magic allows us to look up user_hz via _SC_CLK_TCK.
+
+type Cgroup struct {
+ root string
+ parent string
+ cid string
}
-func OutputChannel(stdout chan string, stderr chan string) {
+var childLog = log.New(os.Stderr, "", 0)
+var statLog = log.New(os.Stderr, "crunchstat: ", 0)
+
+const (
+ MaxLogLine = 1 << 14 // Child stderr lines >16KiB will be split
+)
+
+func CopyPipeToChildLog(in io.ReadCloser, done chan<- bool) {
+ reader := bufio.NewReaderSize(in, MaxLogLine)
+ var prefix string
for {
- select {
- case s, ok := <-stdout:
- if ok {
- fmt.Fprintln(os.Stdout, s)
- } else {
- return
- }
- case s, ok := <-stderr:
- if ok {
- fmt.Fprintln(os.Stderr, s)
- } else {
- return
- }
+ line, isPrefix, err := reader.ReadLine()
+ if err == io.EOF {
+ break
+ } else if err != nil {
+ statLog.Fatal("error reading child stderr:", err)
+ }
+ var suffix string
+ if isPrefix {
+ suffix = "[...]"
+ }
+ childLog.Print(prefix, string(line), suffix)
+ // Set up prefix for following line
+ if isPrefix {
+ prefix = "[...]"
+ } else {
+ prefix = ""
}
}
+ done <- true
+ in.Close()
}
-func FindStat(cgroup_root string, cgroup_parent string, container_id string, statgroup string, stat string) string {
- var path string
- path = fmt.Sprintf("%s/%s/%s/%s/%s.%s", cgroup_root, statgroup, cgroup_parent, container_id, statgroup, stat)
- if _, err := os.Stat(path); err == nil {
- return path
+func ReadAllOrWarn(in *os.File) ([]byte, error) {
+ content, err := ioutil.ReadAll(in)
+ if err != nil {
+ statLog.Printf("error reading %s: %s\n", in.Name(), err)
}
- path = fmt.Sprintf("%s/%s/%s/%s.%s", cgroup_root, cgroup_parent, container_id, statgroup, stat)
- if _, err := os.Stat(path); err == nil {
- return path
+ return content, err
+}
+
+var reportedStatFile = map[string]string{}
+
+// Open the cgroup stats file in /sys/fs corresponding to the target
+// cgroup, and return an *os.File. If no stats file is available,
+// return nil.
+//
+// TODO: Instead of trying all options, choose a process in the
+// container, and read /proc/PID/cgroup to determine the appropriate
+// cgroup root for the given statgroup. (This will avoid falling back
+// to host-level stats during container setup and teardown.)
+func OpenStatFile(cgroup Cgroup, statgroup string, stat string) (*os.File, error) {
+ var paths []string
+ if cgroup.cid != "" {
+ // Collect container's stats
+ paths = []string{
+ fmt.Sprintf("%s/%s/%s/%s/%s", cgroup.root, statgroup, cgroup.parent, cgroup.cid, stat),
+ fmt.Sprintf("%s/%s/%s/%s", cgroup.root, cgroup.parent, cgroup.cid, stat),
+ }
+ } else {
+ // Collect this host's stats
+ paths = []string{
+ fmt.Sprintf("%s/%s/%s", cgroup.root, statgroup, stat),
+ fmt.Sprintf("%s/%s", cgroup.root, stat),
+ }
}
- path = fmt.Sprintf("%s/%s/%s.%s", cgroup_root, statgroup, statgroup, stat)
- if _, err := os.Stat(path); err == nil {
- return path
+ var path string
+ var file *os.File
+ var err error
+ for _, path = range paths {
+ file, err = os.Open(path)
+ if err == nil {
+ break
+ } else {
+ path = ""
+ }
}
- path = fmt.Sprintf("%s/%s.%s", cgroup_root, statgroup, stat)
- if _, err := os.Stat(path); err == nil {
- return path
+ if pathWas, ok := reportedStatFile[stat]; !ok || pathWas != path {
+ // Log whenever we start using a new/different cgroup
+ // stat file for a given statistic. This typically
+ // happens 1 to 3 times per statistic, depending on
+ // whether we happen to collect stats [a] before any
+ // processes have been created in the container and
+ // [b] after all contained processes have exited.
+ if path == "" {
+ statLog.Printf("notice: stats not available: stat %s, statgroup %s, cid %s, parent %s, root %s\n", stat, statgroup, cgroup.cid, cgroup.parent, cgroup.root)
+ } else if ok {
+ statLog.Printf("notice: stats moved from %s to %s\n", reportedStatFile[stat], path)
+ } else {
+ statLog.Printf("notice: reading stats from %s\n", path)
+ }
+ reportedStatFile[stat] = path
}
- return ""
+ return file, err
}
-func PollCgroupStats(cgroup_root string, cgroup_parent string, container_id string, stderr chan string, poll int64) {
- //var last_usage int64 = 0
- var last_user int64 = 0
- var last_sys int64 = 0
- var last_cpucount int64 = 0
-
- type Disk struct {
- last_read int64
- next_read int64
- last_write int64
- next_write int64
+func GetContainerNetStats(cgroup Cgroup) (io.Reader, error) {
+ procsFile, err := OpenStatFile(cgroup, "cpuacct", "cgroup.procs")
+ if err != nil {
+ return nil, err
}
+ defer procsFile.Close()
+ reader := bufio.NewScanner(procsFile)
+ for reader.Scan() {
+ taskPid := reader.Text()
+ statsFilename := fmt.Sprintf("/proc/%s/net/dev", taskPid)
+ stats, err := ioutil.ReadFile(statsFilename)
+ if err != nil {
+ statLog.Printf("error reading %s: %s\n", statsFilename, err)
+ continue
+ }
+ return strings.NewReader(string(stats)), nil
+ }
+ return nil, errors.New("Could not read stats for any proc in container")
+}
- disk := make(map[string]*Disk)
-
- //cpuacct_usage := FindStat(cgroup_path, "cpuacct", "usage")
- cpuacct_stat := FindStat(cgroup_root, cgroup_parent, container_id, "cpuacct", "stat")
- blkio_io_service_bytes := FindStat(cgroup_root, cgroup_parent, container_id, "blkio", "io_service_bytes")
- cpuset_cpus := FindStat(cgroup_root, cgroup_parent, container_id, "cpuset", "cpus")
- memory_stat := FindStat(cgroup_root, cgroup_parent, container_id, "memory", "stat")
+type IoSample struct {
+ sampleTime time.Time
+ txBytes int64
+ rxBytes int64
+}
- if cpuacct_stat != "" {
- stderr <- fmt.Sprintf("crunchstat: reading stats from %s", cpuacct_stat)
+func DoBlkIoStats(cgroup Cgroup, lastSample map[string]IoSample) {
+ c, err := OpenStatFile(cgroup, "blkio", "blkio.io_service_bytes")
+ if err != nil {
+ return
}
- if blkio_io_service_bytes != "" {
- stderr <- fmt.Sprintf("crunchstat: reading stats from %s", blkio_io_service_bytes)
- }
- if cpuset_cpus != "" {
- stderr <- fmt.Sprintf("crunchstat: reading stats from %s", cpuset_cpus)
+ defer c.Close()
+ b := bufio.NewScanner(c)
+ var sampleTime = time.Now()
+ newSamples := make(map[string]IoSample)
+ for b.Scan() {
+ var device, op string
+ var val int64
+ if _, err := fmt.Sscanf(string(b.Text()), "%s %s %d", &device, &op, &val); err != nil {
+ continue
+ }
+ var thisSample IoSample
+ var ok bool
+ if thisSample, ok = newSamples[device]; !ok {
+ thisSample = IoSample{sampleTime, -1, -1}
+ }
+ switch op {
+ case "Read":
+ thisSample.rxBytes = val
+ case "Write":
+ thisSample.txBytes = val
+ }
+ newSamples[device] = thisSample
}
- if memory_stat != "" {
- stderr <- fmt.Sprintf("crunchstat: reading stats from %s", memory_stat)
+ for dev, sample := range newSamples {
+ if sample.txBytes < 0 || sample.rxBytes < 0 {
+ continue
+ }
+ delta := ""
+ if prev, ok := lastSample[dev]; ok {
+ delta = fmt.Sprintf(" -- interval %.4f seconds %d write %d read",
+ sample.sampleTime.Sub(prev.sampleTime).Seconds(),
+ sample.txBytes-prev.txBytes,
+ sample.rxBytes-prev.rxBytes)
+ }
+ statLog.Printf("blkio:%s %d write %d read%s\n", dev, sample.txBytes, sample.rxBytes, delta)
+ lastSample[dev] = sample
}
+}
- var elapsed int64 = poll
+type MemSample struct {
+ sampleTime time.Time
+ memStat map[string]int64
+}
- for {
- /*{
- c, _ := os.Open(cpuacct_usage)
- b, _ := ioutil.ReadAll(c)
- var next int64
- fmt.Sscanf(string(b), "%d", &next)
- if last_usage != 0 {
- stderr <- fmt.Sprintf("crunchstat: cpuacct.usage %v", (next-last_usage)/10000000)
- }
- //fmt.Printf("usage %d %d %d %d%%\n", last_usage, next, next-last_usage, (next-last_usage)/10000000)
- last_usage = next
- c.Close()
- }*/
- var cpus int64 = 0
- if cpuset_cpus != "" {
- c, _ := os.Open(cpuset_cpus)
- b, _ := ioutil.ReadAll(c)
- sp := strings.Split(string(b), ",")
- for _, v := range sp {
- var min, max int64
- n, _ := fmt.Sscanf(v, "%d-%d", &min, &max)
- if n == 2 {
- cpus += (max - min) + 1
- } else {
- cpus += 1
- }
- }
+func DoMemoryStats(cgroup Cgroup) {
+ c, err := OpenStatFile(cgroup, "memory", "memory.stat")
+ if err != nil {
+ return
+ }
+ defer c.Close()
+ b := bufio.NewScanner(c)
+ thisSample := MemSample{time.Now(), make(map[string]int64)}
+ wantStats := [...]string{"cache", "swap", "pgmajfault", "rss"}
+ for b.Scan() {
+ var stat string
+ var val int64
+ if _, err := fmt.Sscanf(string(b.Text()), "%s %d", &stat, &val); err != nil {
+ continue
+ }
+ thisSample.memStat[stat] = val
+ }
+ var outstat bytes.Buffer
+ for _, key := range wantStats {
+ if val, ok := thisSample.memStat[key]; ok {
+ outstat.WriteString(fmt.Sprintf(" %d %s", val, key))
+ }
+ }
+ statLog.Printf("mem%s\n", outstat.String())
+}
- if cpus != last_cpucount {
- stderr <- fmt.Sprintf("crunchstat: cpuset.cpus %v", cpus)
- }
- last_cpucount = cpus
+func DoNetworkStats(cgroup Cgroup, lastSample map[string]IoSample) {
+ sampleTime := time.Now()
+ stats, err := GetContainerNetStats(cgroup)
+ if err != nil {
+ return
+ }
- c.Close()
+ scanner := bufio.NewScanner(stats)
+ for scanner.Scan() {
+ var ifName string
+ var rx, tx int64
+ words := strings.Fields(scanner.Text())
+ if len(words) != 17 {
+ // Skip lines with wrong format
+ continue
}
- if cpus == 0 {
- cpus = 1
+ ifName = strings.TrimRight(words[0], ":")
+ if ifName == "lo" || ifName == "" {
+ // Skip loopback interface and lines with wrong format
+ continue
}
- if cpuacct_stat != "" {
- c, _ := os.Open(cpuacct_stat)
- b, _ := ioutil.ReadAll(c)
- var next_user int64
- var next_sys int64
- fmt.Sscanf(string(b), "user %d\nsystem %d", &next_user, &next_sys)
- c.Close()
-
- if last_user != 0 {
- user_diff := next_user - last_user
- sys_diff := next_sys - last_sys
- // Assume we're reading stats based on 100
- // jiffies per second. Because the ellaspsed
- // time is in milliseconds, we need to boost
- // that to 1000 jiffies per second, then boost
- // it by another 100x to get a percentage, then
- // finally divide by the actual elapsed time
- // and the number of cpus to get average load
- // over the polling period.
- user_pct := (user_diff * 10 * 100) / (elapsed * cpus)
- sys_pct := (sys_diff * 10 * 100) / (elapsed * cpus)
-
- stderr <- fmt.Sprintf("crunchstat: cpuacct.stat user %v", user_pct)
- stderr <- fmt.Sprintf("crunchstat: cpuacct.stat sys %v", sys_pct)
- }
-
- /*fmt.Printf("user %d %d %d%%\n", last_user, next_user, next_user-last_user)
- fmt.Printf("sys %d %d %d%%\n", last_sys, next_sys, next_sys-last_sys)
- fmt.Printf("sum %d%%\n", (next_user-last_user)+(next_sys-last_sys))*/
- last_user = next_user
- last_sys = next_sys
+ if tx, err = strconv.ParseInt(words[9], 10, 64); err != nil {
+ continue
}
- if blkio_io_service_bytes != "" {
- c, _ := os.Open(blkio_io_service_bytes)
- b := bufio.NewScanner(c)
- var device, op string
- var next int64
- for b.Scan() {
- if _, err := fmt.Sscanf(string(b.Text()), "%s %s %d", &device, &op, &next); err == nil {
- if disk[device] == nil {
- disk[device] = new(Disk)
- }
- if op == "Read" {
- disk[device].last_read = disk[device].next_read
- disk[device].next_read = next
- if disk[device].last_read > 0 && (disk[device].next_read != disk[device].last_read) {
- stderr <- fmt.Sprintf("crunchstat: blkio.io_service_bytes %s read %v", device, disk[device].next_read-disk[device].last_read)
- }
- }
- if op == "Write" {
- disk[device].last_write = disk[device].next_write
- disk[device].next_write = next
- if disk[device].last_write > 0 && (disk[device].next_write != disk[device].last_write) {
- stderr <- fmt.Sprintf("crunchstat: blkio.io_service_bytes %s write %v", device, disk[device].next_write-disk[device].last_write)
- }
- }
- }
- }
- c.Close()
+ if rx, err = strconv.ParseInt(words[1], 10, 64); err != nil {
+ continue
+ }
+ nextSample := IoSample{}
+ nextSample.sampleTime = sampleTime
+ nextSample.txBytes = tx
+ nextSample.rxBytes = rx
+ var delta string
+ if prev, ok := lastSample[ifName]; ok {
+ interval := nextSample.sampleTime.Sub(prev.sampleTime).Seconds()
+ delta = fmt.Sprintf(" -- interval %.4f seconds %d tx %d rx",
+ interval,
+ tx-prev.txBytes,
+ rx-prev.rxBytes)
}
+ statLog.Printf("net:%s %d tx %d rx%s\n", ifName, tx, rx, delta)
+ lastSample[ifName] = nextSample
+ }
+}
- if memory_stat != "" {
- c, _ := os.Open(memory_stat)
- b := bufio.NewScanner(c)
- var stat string
- var val int64
- for b.Scan() {
- if _, err := fmt.Sscanf(string(b.Text()), "%s %d", &stat, &val); err == nil {
- if stat == "rss" {
- stderr <- fmt.Sprintf("crunchstat: memory.stat rss %v", val)
- }
- }
- }
- c.Close()
+type CpuSample struct {
+ hasData bool // to distinguish the zero value from real data
+ sampleTime time.Time
+ user float64
+ sys float64
+ cpus int64
+}
+
+// Return the number of CPUs available in the container. Return 0 if
+// we can't figure out the real number of CPUs.
+func GetCpuCount(cgroup Cgroup) int64 {
+ cpusetFile, err := OpenStatFile(cgroup, "cpuset", "cpuset.cpus")
+ if err != nil {
+ return 0
+ }
+ defer cpusetFile.Close()
+ b, err := ReadAllOrWarn(cpusetFile)
+ sp := strings.Split(string(b), ",")
+ cpus := int64(0)
+ for _, v := range sp {
+ var min, max int64
+ n, _ := fmt.Sscanf(v, "%d-%d", &min, &max)
+ if n == 2 {
+ cpus += (max - min) + 1
+ } else {
+ cpus += 1
}
+ }
+ return cpus
+}
- bedtime := time.Now()
- time.Sleep(time.Duration(poll) * time.Millisecond)
- morning := time.Now()
- elapsed = morning.Sub(bedtime).Nanoseconds() / int64(time.Millisecond)
+func DoCpuStats(cgroup Cgroup, lastSample *CpuSample) {
+ statFile, err := OpenStatFile(cgroup, "cpuacct", "cpuacct.stat")
+ if err != nil {
+ return
+ }
+ defer statFile.Close()
+ b, err := ReadAllOrWarn(statFile)
+ if err != nil {
+ return
}
+
+ nextSample := CpuSample{true, time.Now(), 0, 0, GetCpuCount(cgroup)}
+ var userTicks, sysTicks int64
+ fmt.Sscanf(string(b), "user %d\nsystem %d", &userTicks, &sysTicks)
+ user_hz := float64(C.sysconf(C._SC_CLK_TCK))
+ nextSample.user = float64(userTicks) / user_hz
+ nextSample.sys = float64(sysTicks) / user_hz
+
+ delta := ""
+ if lastSample.hasData {
+ delta = fmt.Sprintf(" -- interval %.4f seconds %.4f user %.4f sys",
+ nextSample.sampleTime.Sub(lastSample.sampleTime).Seconds(),
+ nextSample.user-lastSample.user,
+ nextSample.sys-lastSample.sys)
+ }
+ statLog.Printf("cpu %.4f user %.4f sys %d cpus%s\n",
+ nextSample.user, nextSample.sys, nextSample.cpus, delta)
+ *lastSample = nextSample
}
-func main() {
+func PollCgroupStats(cgroup Cgroup, poll int64, stop_poll_chan <-chan bool) {
+ var lastNetSample = map[string]IoSample{}
+ var lastDiskSample = map[string]IoSample{}
+ var lastCpuSample = CpuSample{}
+
+ poll_chan := make(chan bool, 1)
+ go func() {
+ // Send periodic poll events.
+ poll_chan <- true
+ for {
+ time.Sleep(time.Duration(poll) * time.Millisecond)
+ poll_chan <- true
+ }
+ }()
+ for {
+ select {
+ case <-stop_poll_chan:
+ return
+ case <-poll_chan:
+ // Emit stats, then select again.
+ }
+ DoMemoryStats(cgroup)
+ DoCpuStats(cgroup, &lastCpuSample)
+ DoBlkIoStats(cgroup, lastDiskSample)
+ DoNetworkStats(cgroup, lastNetSample)
+ }
+}
+
+func run(logger *log.Logger) error {
var (
cgroup_root string
flag.Parse()
- logger := log.New(os.Stderr, "crunchstat: ", 0)
-
if cgroup_root == "" {
- logger.Fatal("Must provide either -cgroup-root")
+ statLog.Fatal("error: must provide -cgroup-root")
}
- // Make output channel
- stdout_chan := make(chan string)
- stderr_chan := make(chan string)
finish_chan := make(chan bool)
- defer close(stdout_chan)
- defer close(stderr_chan)
defer close(finish_chan)
- go OutputChannel(stdout_chan, stderr_chan)
-
var cmd *exec.Cmd
if len(flag.Args()) > 0 {
// Set up subprocess
cmd = exec.Command(flag.Args()[0], flag.Args()[1:]...)
- logger.Print("Running ", flag.Args())
+ childLog.Println("Running", flag.Args())
+
+ // Child process will use our stdin and stdout pipes
+ // (we close our copies below)
+ cmd.Stdin = os.Stdin
+ cmd.Stdout = os.Stdout
// Forward SIGINT and SIGTERM to inner process
- term := make(chan os.Signal, 1)
+ sigChan := make(chan os.Signal, 1)
go func(sig <-chan os.Signal) {
catch := <-sig
if cmd.Process != nil {
cmd.Process.Signal(catch)
}
- logger.Print("caught signal:", catch)
- }(term)
- signal.Notify(term, syscall.SIGTERM)
- signal.Notify(term, syscall.SIGINT)
-
- // Funnel stdout and stderr from subprocess to output channels
- stdout_pipe, err := cmd.StdoutPipe()
- if err != nil {
- logger.Fatal(err)
- }
- go ReadLineByLine(stdout_pipe, stdout_chan, finish_chan)
+ statLog.Println("notice: caught signal:", catch)
+ }(sigChan)
+ signal.Notify(sigChan, syscall.SIGTERM)
+ signal.Notify(sigChan, syscall.SIGINT)
+ // Funnel stderr through our channel
stderr_pipe, err := cmd.StderrPipe()
if err != nil {
- logger.Fatal(err)
+ statLog.Fatalln("error in StderrPipe:", err)
}
- go ReadLineByLine(stderr_pipe, stderr_chan, finish_chan)
+ go CopyPipeToChildLog(stderr_pipe, finish_chan)
// Run subprocess
if err := cmd.Start(); err != nil {
- logger.Fatal(err)
+ statLog.Fatalln("error in cmd.Start:", err)
}
+
+ // Close stdin/stdout in this (parent) process
+ os.Stdin.Close()
+ os.Stdout.Close()
}
// Read the cid file
var container_id string
if cgroup_cidfile != "" {
// wait up to 'wait' seconds for the cid file to appear
+ ok := false
var i time.Duration
for i = 0; i < time.Duration(wait)*time.Second; i += (100 * time.Millisecond) {
- f, err := os.Open(cgroup_cidfile)
- if err == nil {
- cid, err2 := ioutil.ReadAll(f)
- if err2 == nil && len(cid) > 0 {
- container_id = string(cid)
- f.Close()
- break
- }
+ cid, err := ioutil.ReadFile(cgroup_cidfile)
+ if err == nil && len(cid) > 0 {
+ ok = true
+ container_id = string(cid)
+ break
}
time.Sleep(100 * time.Millisecond)
}
- if cgroup_root == "" {
- logger.Printf("Could not read cid file %s", cgroup_cidfile)
+ if !ok {
+ statLog.Println("error reading cid file:", cgroup_cidfile)
}
}
- go PollCgroupStats(cgroup_root, cgroup_parent, container_id, stderr_chan, poll)
+ stop_poll_chan := make(chan bool, 1)
+ cgroup := Cgroup{cgroup_root, cgroup_parent, container_id}
+ go PollCgroupStats(cgroup, poll, stop_poll_chan)
- // Wait for each of stdout and stderr to drain
- <-finish_chan
+ // When the child exits, tell the polling goroutine to stop.
+ defer func() { stop_poll_chan <- true }()
+
+ // Wait for CopyPipeToChan to consume child's stderr pipe
<-finish_chan
- if err := cmd.Wait(); err != nil {
+ return cmd.Wait()
+}
+
+func main() {
+ logger := log.New(os.Stderr, "crunchstat: ", 0)
+ if err := run(logger); err != nil {
if exiterr, ok := err.(*exec.ExitError); ok {
// The program has exited with an exit code != 0
- // This works on both Unix and Windows. Although package
- // syscall is generally platform dependent, WaitStatus is
- // defined for both Unix and Windows and in both cases has
- // an ExitStatus() method with the same signature.
+ // This works on both Unix and
+ // Windows. Although package syscall is
+ // generally platform dependent, WaitStatus is
+ // defined for both Unix and Windows and in
+ // both cases has an ExitStatus() method with
+ // the same signature.
if status, ok := exiterr.Sys().(syscall.WaitStatus); ok {
os.Exit(status.ExitStatus())
}
} else {
- logger.Fatalf("cmd.Wait: %v", err)
+ statLog.Fatalln("error in cmd.Wait:", err)
}
}
}